CN221983402U - Cabin structure - Google Patents
Cabin structure Download PDFInfo
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- CN221983402U CN221983402U CN202420497623.3U CN202420497623U CN221983402U CN 221983402 U CN221983402 U CN 221983402U CN 202420497623 U CN202420497623 U CN 202420497623U CN 221983402 U CN221983402 U CN 221983402U
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- Prior art keywords
- butt joint
- interface
- pipe
- water
- cavity
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 130
- 210000001503 joint Anatomy 0.000 claims abstract description 106
- 239000007921 spray Substances 0.000 claims abstract description 71
- 238000004140 cleaning Methods 0.000 claims abstract description 34
- 238000004659 sterilization and disinfection Methods 0.000 claims abstract description 17
- 239000000463 material Substances 0.000 claims abstract description 9
- 238000005507 spraying Methods 0.000 claims description 35
- 238000003032 molecular docking Methods 0.000 claims description 30
- 230000010412 perfusion Effects 0.000 claims description 12
- 238000007789 sealing Methods 0.000 claims description 5
- 230000001954 sterilising effect Effects 0.000 abstract description 13
- 230000000694 effects Effects 0.000 description 5
- 238000000034 method Methods 0.000 description 5
- 230000000249 desinfective effect Effects 0.000 description 4
- 238000009434 installation Methods 0.000 description 4
- 230000035515 penetration Effects 0.000 description 4
- 238000000926 separation method Methods 0.000 description 4
- 239000000645 desinfectant Substances 0.000 description 2
- 238000001035 drying Methods 0.000 description 2
- 238000002347 injection Methods 0.000 description 2
- 239000007924 injection Substances 0.000 description 2
- 238000009413 insulation Methods 0.000 description 2
- 230000000149 penetrating effect Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005202 decontamination Methods 0.000 description 1
- 230000003588 decontaminative effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
Abstract
The utility model discloses a cabin structure, and belongs to the technical field of pipeline butt joint. The cabin structure is used for cleaning lumen instruments in the material tray, the material tray is arranged on the attached carrier, the material tray is respectively connected with the lumen instruments and the attached carrier through pipelines, and the attached carrier is respectively provided with a first interface, a second interface and a third interface; the cabin structure comprises a main frame and a butt joint pipeline assembly; the main frame is provided with a constant temperature water tank and a disinfection water tank respectively, and a cavity for placing the attached carrier is arranged in the main frame; one end of the butt joint pipeline assembly is respectively connected to the constant temperature water tank and the disinfection water tank, and the other end of the butt joint pipeline assembly penetrates into the cavity and is respectively in butt joint with the first interface, the second interface and the third interface so as to be capable of respectively providing spray water, cleaning pieces and compressed gas for the first interface, the second interface and the third interface. The cabin structure can realize automatic butt joint of pipelines between the cabin structure and the attached carrier, so that the cleaning and sterilizing efficiency of the lumen appliance is higher.
Description
Technical Field
The utility model relates to the technical field of pipeline butt joint, in particular to a cabin structure.
Background
In the process of cleaning the soft endoscope, the soft endoscope is required to be transported, namely, the soft endoscope is placed on the attached carrier, and a docking mechanism is required to complete docking between the attached carrier and the cabin body for transporting the soft endoscope between the cleaning cabin bodies, so that the outside and the inside of the soft endoscope can be cleaned and disinfected through the cabin bodies; however, due to the limitation of the internal structure of the existing cabin, the automatic butt joint of the pipelines between the attached carrier and the cabin cannot be realized, so that the cleaning and sterilizing efficiency of the soft endoscope is lower.
In view of the above, a cabin structure is needed to solve the above problems.
Disclosure of utility model
The utility model aims to provide a cabin structure which can realize automatic butt joint of pipelines between the cabin structure and an attached carrier, so that the cleaning and sterilizing efficiency of lumen instruments is higher.
To achieve the purpose, the utility model adopts the following technical scheme:
Cabin body structure for wash the lumen apparatus in the charging tray, the charging tray is arranged in and is attached on the carriage, the charging tray respectively with lumen apparatus with attach carriage pipe connection, attach and set up first interface, second interface and third interface on the carriage respectively, cabin body structure includes:
The main frame is provided with a constant temperature water tank and a disinfection water tank respectively, and a cavity for placing the attached carrier is arranged in the main frame;
The butt joint pipeline assembly, the one end of butt joint pipeline assembly is connected to respectively constant temperature water tank with the disinfection water tank, the other end of butt joint pipeline assembly wears to in the cavity is internal and be used for the butt joint respectively to first interface, second interface and third interface, so as to be able to be respectively for first interface, second interface and third interface provides shower water, cleaning piece and compressed gas.
Further, the cavity is provided with a water containing tank, and the bottom end of the cavity is inclined downwards towards the water containing tank, so that water in the carrying frame and the cavity flows into the water containing tank.
Further, a water containing groove is arranged in the cavity; the docking pipeline assembly includes:
one end of the first branch pipeline is connected to the constant temperature water tank, and a first ball valve is arranged on the first branch pipeline;
the other end of the first branch pipeline is connected to the second branch pipeline, a second ball valve is arranged on the second branch pipeline, one end of the second branch pipeline is connected to the disinfection water tank, and the other end of the second branch pipeline penetrates into the cavity body and is located above the containing water tank.
Further, an intermediate joint is arranged on the outer bottom end surface of the cavity; the docking pipeline assembly further includes:
a third pipeline, one end of which is connected to the water containing tank;
the spray driving piece is arranged in the main frame and is in driving connection with the other end of the third branch pipeline;
One end of the upper spray pipe is connected to the middle joint, the other end of the upper spray pipe extends to the top end of the cavity, and a spray piece is arranged on the upper spray pipe;
the spray driving piece can drive the water in the third branch pipeline to be pumped into the middle joint so as to flow into the upper spray pipe, so that the spray piece sprays and cleans the pipe cavity instrument positioned in the uppermost layer of the material tray.
Further, the inner bottom end face of the cavity is fixedly provided with a spraying butt joint, the spraying butt joint is correspondingly arranged with the middle joint, the top end face of the spraying butt joint is horizontally arranged, and the spraying butt joint is used for butt joint with the first interface.
Further, install the lift joint in the spray butt joint, spray butt joint external screw thread connection has the spray nut, the bottom of lift joint is located spray nut is interior, the top of lift joint stretches out to spray outside the nut, the lift joint can spray the water pressure effect in the butt joint and rise along the Z axle in the spray nut, so that the lift joint butt joint to first interface.
Further, the docking pipeline assembly further comprises:
The mounting block is arranged on the inner bottom end face of the cavity body, the top end face of the mounting block is flush with the top end face of the spraying butt joint, and a plurality of butt joint pipes are inserted in the mounting block in a sliding manner along the Z axis;
The mounting frame comprises a top plate, a bottom plate and a connecting column connected between the top plate and the bottom plate, and the bottom end of the butt joint pipe penetrates out of the cavity body and is connected to the top plate;
a fourth pipeline, one end of which is connected to the water containing tank;
The other end of the fourth branch pipeline is connected to the flow dividing seat;
the flow dividing seats are respectively connected to a plurality of perfusion pumps;
the bottom plate is provided with a plurality of air-water diversion blocks, the outlets of the perfusion pumps are respectively connected to the water inlets of the air-water diversion blocks, and the water outlets of the air-water diversion blocks can be in butt joint with the butt joint pipe.
Further, the docking pipeline assembly further comprises:
The fixed end of the push rod motor is arranged on the main frame, the pushing end of the push rod motor penetrates through the bottom plate and is in driving connection with the top plate, and the push rod motor is used for driving the top plate to move upwards along the Z axis so that the butt joint pipe moves upwards along the Z axis in the mounting block to butt joint the second interface.
Further, the docking pipeline assembly further comprises:
The air receiving pipes are also inserted in the mounting blocks in a sliding manner along the Z axis, and the bottom ends of the air receiving pipes are connected to the top plate;
The electromagnetic valve is connected to the air source, the electromagnetic valve is connected to the air inlet of the air-water separation block, the air outlet of the air-water separation block is in butt joint with the air receiving pipe, and when the push rod motor drives the top plate and the air receiving pipe to move upwards along the Z axis, the air receiving pipe can be in butt joint with the third interface.
Further, a through hole is formed in the mounting block, the butt joint pipe and the gas receiving pipe are respectively inserted into the through holes, a linear bearing is arranged at the lower end part of each through hole, a sealing ring is arranged at the upper end part of each through hole, and the butt joint pipe and the gas receiving pipe sequentially penetrate through the linear bearing and the sealing ring.
The beneficial effects of the utility model are as follows:
Placing a pipe cavity instrument in a material tray, placing the material tray on an attached carrier, connecting the material tray with the pipe cavity instrument and a pipeline of the attached carrier respectively, connecting one end of a butt joint pipeline assembly to a constant temperature water tank and a disinfection water tank in a cabin structure respectively, and penetrating the other end of the butt joint pipeline assembly into a cavity of the cabin structure and respectively connecting the butt joint pipeline assembly to a first interface, a second interface and a third interface on the attached carrier so as to respectively provide spray water, a cleaning piece and compressed gas for the first interface, the second interface and the third interface, thereby realizing cleaning of the pipe cavity instrument; the automatic butt joint of the pipeline between the attached carrier and the cabin structure is realized by adopting the automatic butt joint of the butt joint pipeline component and the first interface, the second interface and the third interface on the attached carrier, so that the cleaning and sterilizing efficiency of the lumen appliance is higher.
Drawings
FIG. 1 is a schematic view of a nacelle structure according to the utility model in one view;
FIG. 2 is a schematic view of the cabin structure according to the present utility model in another view;
FIG. 3 is a schematic view of the structure of the cavity provided by the present utility model;
FIG. 4 is a schematic view of the structure of the nacelle (with the upper portion removed) provided by the utility model;
FIG. 5 is a schematic diagram of a second embodiment of the nacelle structure (with the upper portion removed);
FIG. 6 is a schematic view of a third embodiment of the nacelle structure (with the upper portion removed) provided by the utility model;
FIG. 7 is a schematic view of the bottom structure of the mounting block provided by the present utility model;
Fig. 8 is a schematic top view of a mounting block provided by the present utility model.
Reference numerals illustrate:
110. A cabin structure; 111. a constant temperature water tank; 112. a sterilizing water tank; 113. a main frame; 114. a cavity body; 115. a water accommodating tank; 116. a first branch pipe; 117. a second branch pipe; 118. a first ball valve; 119. a second ball valve; 121. a third pipeline; 122. a spray drive; 123. a spray pipe is arranged; 124. spraying butt joint; 125. a lifting joint; 126. spraying a nut; 128. a bottom plate; 129. a top plate; 131. a fourth pipeline; 132. a filter; 133. a shunt seat; 134. a perfusion pump; 135. a gas-water flow dividing block; 136. a connecting column; 137. a butt joint pipe; 138. a push rod motor; 139. a gas receiving pipe; 141. an electromagnetic valve; 142. a mounting block; 143. penetrating the hole; 144. a seal ring; 145. a linear bearing; 146. conveying rollers; 147. an intermediate joint;
400. And (5) attaching a carrier.
Detailed Description
All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.
Any feature disclosed in this specification may be replaced by alternative features serving the same or equivalent purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise. Like reference numerals refer to like elements throughout the specification.
In order to make the technical problems solved, the technical scheme adopted and the technical effects achieved by the utility model more clear, the technical scheme of the utility model is further described below by a specific embodiment in combination with the attached drawings.
The existing cabin structure is generally arranged in a straight line, and the required operation distance needs to be reserved at the two sides of the cabin structure, so that the space occupied by the length required by the whole cabin structure is large, and the limitation of installation is large; in addition, the existing cabin structure usually integrates the cleaning, rinsing, sterilizing and drying of the soft endoscope into the same cabin, which results in longer decontamination time and lower efficiency
As shown in fig. 1, the present embodiment provides a cabin structure 110, which can automatically dock the pipeline between the attached carrier 400 and the cabin structure 110, so as to improve the cleaning and disinfecting efficiency of the lumen appliance on the attached carrier 400. In this embodiment, the lumen device is placed in a tray on the attaching frame 400, and the tray is connected with the lumen device and the attaching frame 400 through pipelines, so that a cleaning piece or compressed air can be provided to the lumen device through the attaching frame 400 and the tray. The lumen device is in particular a soft endoscope in a medical device. In other embodiments, the lumen device may be any other type of lumen device that requires internal and external cleaning and sterilization, and is not specifically limited herein.
It should be noted that, the attaching carrier 400 is provided with a first interface, a second interface and a third interface respectively; the first interface is used for providing spraying cleaning elements for the attached carrier 400 and the lumen appliance, the second interface is used for providing cleaning elements for the attached carrier 400 and the lumen appliance, and the third interface is used for providing compressed gas for the attached carrier 400 and the lumen appliance so as to detect the air tightness inside the lumen appliance; here, it is not described in detail how the tray is connected to the lumen device and the attached carrier 400 through a pipeline, so long as the cabin structure 110 can be guaranteed to be automatically abutted to the first interface, the second interface and the third interface respectively, so as to provide cleaning members or compressed gas for the attached carrier 400 and the lumen device. The cleaning member may be cleaning water, a disinfectant or compressed air, so that cleaning water can be delivered to the interior of the lumen device through the second interface for cleaning/rinsing, or disinfectant can be delivered for disinfecting, or compressed air can be delivered for drying the liquid in the lumen device according to the cleaning and disinfecting requirements, which is not limited herein.
Specifically, as shown in fig. 1 and 2, the cabin structure 110 includes a main frame 113, and a constant temperature water tank 111 and a disinfection water tank 112 respectively disposed on the main frame 113, and insulation layers are disposed on the peripheries of the main frame 113, the constant temperature water tank 111 and the disinfection water tank 112, so as to ensure the insulation effect on the constant temperature water tank 111 and the disinfection water tank 112, and ensure good cleaning and disinfection effects on lumen devices. Wherein, the constant temperature water tank 111 and the sterilizing water tank 112 can be preheated, and water is directly fed into the main frame 113 from the water tank when cleaning and sterilizing are performed, so that the time can be saved; and, heating pipes and temperature detecting members are provided in the constant temperature water tank 111 and the sterilizing water tank 112 to ensure that the temperature in the water tank satisfies the requirement. In this embodiment, the constant temperature water in the constant temperature water tank 111 may be 40 ℃, and the water in the sterilizing water tank 112 may be 60 ℃, which is not limited herein.
Further, as shown in fig. 1 and 2, a cavity 114 for placing the carrier 400 is provided in the main frame 113, the cavity 114 is located below the constant temperature water tank 111 and the disinfection water tank 112, and the cabin structure 110 further includes a docking pipeline assembly; wherein, the butt joint pipeline subassembly sets up on main frame 113, and the one end of butt joint pipeline subassembly is used for being connected to constant temperature water tank 111 and disinfection water tank 112 respectively, and the other end of butt joint pipeline subassembly passes to cavity 114 in and dock respectively to first interface, second interface and third interface to realize the pipeline automatic connection between cabin body structure 110 and the attached carrier 400, in order to provide shower water, cleaning member and compressed gas for first interface, second interface and third interface respectively, thereby can be convenient for cabin body structure 110 carry out cleaning and disinfection to the lumen apparatus.
Compared with the prior art, the cabin structure 110 in the embodiment is provided with the butt joint pipeline assembly, so that the automatic butt joint of the pipelines between the cabin structure 110 and the attached carrier 400 can be realized, the cleaning and disinfecting efficiency of the lumen appliance can be improved, and time and labor are saved.
Specifically, as shown in fig. 1 and 2, a water containing tank 115 is further disposed in the cavity 114, the docking pipeline assembly includes a first branch pipeline 116 and a second branch pipeline 117, one end of the first branch pipeline 116 is connected to the thermostatic water tank 111, a first ball valve 118 is disposed on the first branch pipeline 116, the other end of the first branch pipeline 116 is connected to the second branch pipeline 117, one end of the second branch pipeline 117 is connected to the sterilizing water tank 112, and a second ball valve 119 is disposed on the second branch pipeline 117, and the other end of the second branch pipeline 117 penetrates into the cavity 114 and is located above the water containing tank 115, so that water in the thermostatic water tank 111 and water in the sterilizing water tank 112 can be conveyed into the water containing tank 115.
During cleaning, the first ball valve 118 on the first branch pipeline 116 in the cabin structure 110 is opened, so that cleaning water in the constant-temperature water tank 111 enters the containing water tank 115 through the first branch pipeline 116 and part of the second branch pipeline 117, and when the water level in the containing water tank 115 is a preset water level, the first ball valve 118 is closed, so that the water in the constant-temperature water tank 111 is conveyed into the containing water tank 115 of the cavity 114.
Further, as shown in fig. 1 and 3, the bottom end of the cavity 114 is inclined downward toward the receiving water tank 115 so that the water in the attaching carrier 400 and the cavity 114 can automatically flow into the receiving water tank 115; and a plurality of conveying rollers 146 are provided flush on the inner bottom end surface of the cavity 114, the conveying rollers 146 being for supporting the carriage 400 and being capable of conveying the carriage 400 along the X-axis.
Specifically, as shown in fig. 4, an intermediate joint 147 is disposed on the outer bottom end surface of the cavity 114, the butt joint pipeline assembly further includes a third branch pipeline 121, a spray driving member 122 and an upper spray pipe 123, one end of the third branch pipeline 121 is connected to the water containing tank 115, the other end of the third branch pipeline 121 is connected to the spray driving member 122, one end of the upper spray pipe 123 is connected to the intermediate joint 147, and a transfer pipeline is connected between the spray driving member 122 and the intermediate joint 147; when the water in the water tank 115 flows into the third branch pipe 121 under the action of gravity, the spray driving member 122 can pump the water in the third branch pipe 121 into the middle joint 147, and flow into the upper spray pipe 123 from the middle joint 147, and the other end of the upper spray pipe 123 extends to the top end of the cavity 114, and the spray member is arranged on the upper spray pipe 123, so that the spray member on the upper spray pipe 123 sprays and washes the pipe cavity apparatus in the uppermost tray. In this embodiment, the spray driving member 122 may be a circulation pump.
Further, as shown in fig. 3 and fig. 4, a spraying abutment 124 is further fixedly disposed on an inner bottom end surface of the cavity 114, the spraying abutment 124 is disposed corresponding to the middle joint 147, and a top end surface of the spraying abutment 124 is horizontally disposed, the spraying abutment 124 is used for abutting against a first interface on the attaching carrier 400, so that water in the middle joint 147 can enter the first interface through the spraying abutment 124, and thus enters a spraying member on the attaching carrier 400, so that the spraying member sprays and washes the outside of the lumen apparatus. Wherein, spray the top face level setting of butt joint 124 to can laminate comparatively closely when can guaranteeing to spray the butt joint 124 and dock with first interface, thereby guarantee to spray the butt joint leakproofness between butt joint 124 and the first interface better.
Specifically, as shown in fig. 4, a lifting joint 125 is installed in the spraying butt joint 124, the spraying butt joint 124 is externally connected with a spraying nut 126, the bottom end of the lifting joint 125 is located in the spraying nut 126, the top end of the lifting joint 125 extends out of the spraying nut 126, the lifting joint 125 can lift along the Z axis in the spraying butt joint 124 and the spraying nut 126, a first step surface is arranged in the spraying butt joint 124, a second step surface is arranged in the spraying nut 126, and the bottom end of the lifting joint 125 is limited between the first step surface and the second step surface, namely, the lifting joint 125 can only lift along the Z axis between the first step surface and the second step surface.
In the process of butting the spray butt joint 124 to the first interface, the spray driving piece 122 is started so that spray water in the third branch pipeline 121 enters the spray butt joint 124 through the middle joint 147, and under the action of water pressure, the lifting joint 125 is lifted up along the Z axis by the spray water due to the small aperture of the opening in the lifting joint 125, and the lifted lifting joint 125 is butted with the first interface when moving to the second step surface, so that the spray water can be conveyed to each spray piece through the spray main pipeline and the spray branch pipeline on the attached carrier 400.
Through setting up lifting joint 125, can realize spraying the automatic butt joint between butt joint 124 and the first interface under the effect of water pressure for spray line butt joint between cabin body structure 110 and the attached carrier 400 is comparatively simple and convenient, labour saving and time saving.
Further, as shown in fig. 4 and 5, the docking pipeline assembly further comprises a mounting frame, a fourth branch pipeline 131, a filter 132, a diversion seat 133, a perfusion pump 134 and a gas-water block 135 which are arranged below the cavity 114, a mounting block 142 is further arranged on the inner bottom end surface of the cavity 114, the mounting block 142 is positioned on one side of the spraying docking head 124, the top end surface of the mounting block 142 is flush with the top end surface of the spraying docking head 124, and a plurality of docking pipes 137 are slidably inserted in the mounting block 142 along the Z axis; the installation frame comprises a connecting column 136, a top plate 129 and a bottom plate 128 which are oppositely arranged, the top plate 129 and the bottom plate 128 are connected with the connecting column 136 in a supporting mode, a water collecting seat is arranged on the top plate 129 of the installation frame, a butt joint pipe 137 penetrates out of the bottom end of the cavity 114 and is connected to the water collecting seat, and a plurality of air-water diversion blocks 135 are arranged on the bottom plate 128 of the installation frame; one end of the fourth branch pipe 131 is connected to the receiving water tank 115, the other end of the fourth branch pipe 131 is connected to the diverting seat 133, and the filter 132 is disposed on the fourth branch pipe 131 to filter the cleaning member on the fourth branch pipe 131; the diversion seat 133 is respectively connected to each perfusion pump 134, the outlet of each perfusion pump 134 is respectively connected to the water inlet of each gas-water diversion block 135, and the water outlet of the gas-water diversion block 135 can be in butt joint with the butt joint pipe 137 on the water collection seat.
Specifically, as shown in fig. 6, a push rod motor 138 is further disposed below the cavity 114, a fixed end of the push rod motor 138 is disposed on the main frame 113, a pushing end of the push rod motor 138 penetrates through the bottom plate 128 of the mounting frame to be in driving connection with the top plate 129, and the push rod motor 138 is used for driving the top plate 129 and the whole mounting frame to move upwards along the Z-axis, so that the docking tube 137 moves upwards along the Z-axis in the mounting block 142, and thus one docking tube 137 is docked to one second interface. Wherein, each air-water diversion block 135 is square interval setting in the periphery of push rod motor 138 to make the stiff end of push rod motor 138 can not produce the interference to the removal of mounting bracket on the Z axle.
Further, as shown in fig. 6, the docking pipeline assembly further comprises a gas receiving pipe 139 and a solenoid valve 141; wherein, a plurality of air receiving pipes 139 are inserted in the mounting block 142, and the arrangement mode and structure of the air receiving pipes 139 and the butt joint pipes 137 are the same; a plurality of electromagnetic valves 141 for compressed gas to flow through are also arranged below the cavity 114, one electromagnetic valve 141 is connected to the air inlet of one air-water separation block 135, and the air outlet of the air-water separation block 135 is in butt joint with an air receiving pipe 139 on the water collecting seat; when the push rod motor 138 drives the top plate 129 and the whole mounting frame to move upwards along the Z-axis, the butt joint pipe 137 is butt jointed with the second interface, the perfusion pump 134 stops working, and meanwhile, the air joint pipe 139 is butt jointed with the third interface.
Specifically, as shown in fig. 7 and 8, a penetration hole 143 is provided in the mounting block 142, the docking pipe 137 and the gas receiving pipe 139 are respectively inserted into the respective penetration holes 143, a linear bearing 145 is provided at a lower end portion of the penetration hole 143, a seal ring 144 is provided at an upper end portion of the penetration hole 143, and the docking pipe 137 and the gas receiving pipe 139 pass through the linear bearing 145 and the seal ring 144; the rotation of the butt joint pipe 137 and the air receiving pipe 139 can be limited by the linear bearing 145, so that the butt joint pipe 137 and the air receiving pipe 139 can only move up and down along the Z axis; meanwhile, the sealing ring 144 is arranged, so that the tightness between the top end surface of the mounting block 142 and the bottom end surface of the attaching carrier 400 can be ensured when the butt joint pipe 137 is in butt joint with the second interface and the gas joint pipe 139 is in butt joint with the third interface; in addition, the top end surface of the mounting block 142 is flush with the top end surface of the spray butt joint 124, so that the adhesion between the top end surface of the mounting block 142 and the bottom end surface of the attaching carrier 400 can be ensured, and the air tightness between the mounting block 142 and the attaching carrier 400 can be better ensured.
The process of docking the pipeline between the cabin structure 110 and the attaching frame 400 in this embodiment is specifically as follows:
Firstly, when the interior of the lumen apparatus needs to be cleaned, the attaching carrier 400 is firstly transferred into the cavity 114 along the Y axis, the perfusion pump 134 is operated, the push rod motor 138 is used for pushing the top plate 129 upwards along the Z axis, the top plate 129 drives the docking tube 137 to pass through the mounting block 142 upwards along the Z axis, so that the docking tube 137 moves upwards to a second interface of the bottom end face of the docking carrier 400, the docking of the cleaning pipeline between the attaching carrier 400 and the cabin structure 110 is completed, and the cleaning piece in the accommodating water tank 115 can be conveyed to the docking tube 137 to flow into the lumen apparatus on the attaching carrier 400 through the docking tube 137 and the second interface, so that the interior of the lumen apparatus is cleaned.
When the perfusion pump 134 stops working, the electromagnetic valve 141 is opened, so that the compressed gas flows to the gas receiving pipe 139 through the electromagnetic valve 141, and can flow to the third interface through the gas receiving pipe 139, and can flow to the inside of the lumen apparatus through the third interface and the material tray, so as to charge the compressed gas into the inside of the lumen apparatus, so as to detect the air tightness of the lumen apparatus, and realize the switching work of water injection and gas injection.
When the lumen appliance needs to be sprayed and cleaned, the spray driving piece 122 is started firstly, so that spray water in the third branch pipeline 121 enters the spray butt joint 124 through the middle joint 147, the lifting joint 125 is lifted up along the Z axial direction under the action of water pressure due to the small aperture of the opening in the lifting joint 125, and the lifted lifting joint 125 is butted with the first interface when moving to the second step surface so as to be capable of conveying the spray water to each spray piece through the spray main pipeline and the spray branch pipeline on the attached carrier 400.
The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.
Claims (10)
1. Cabin body structure for wash the lumen apparatus in the charging tray, the charging tray is arranged in and is attached the carrier, the charging tray respectively with lumen apparatus with attach carrier pipe connection, attach and set up first interface, second interface and third interface on the carrier respectively, its characterized in that, cabin body structure includes:
a main frame (113) on which a constant temperature water tank (111) and a disinfection water tank (112) are respectively arranged, wherein a cavity (114) for placing the loading frame is arranged in the main frame (113);
The butt joint pipeline subassembly, the one end of butt joint pipeline subassembly is connected to respectively constant temperature water tank (111) with disinfection water tank (112), the other end of butt joint pipeline subassembly wears to in cavity (114) and be used for respectively dock to first interface, second interface and third interface, in order to be able to be respectively for first interface, second interface and third interface provides shower water, cleaning piece and compressed gas.
2. Cabin structure according to claim 1, wherein the cavity (114) is provided with a receiving trough (115), the bottom end of the cavity (114) being arranged inclined downwards towards the receiving trough (115) so that the water in the carrier and the cavity (114) flows into the receiving trough (115).
3. Cabin structure according to claim 1, characterized in that the cavity (114) is provided with a water containing tank (115); the docking pipeline assembly includes:
a first branch pipeline (116), one end of which is connected to the constant temperature water tank (111), wherein a first ball valve (118) is arranged on the first branch pipeline (116);
The second branch pipeline (117), the other end of first branch pipeline (116) is connected to second branch pipeline (117), be provided with second ball valve (119) on second branch pipeline (117), the one end of second branch pipeline (117) is connected to disinfection water tank (112), the other end of second branch pipeline (117) wears to cavity (114) is inside and be located hold the top of basin (115).
4. Cabin structure according to claim 2, characterized in that the outer bottom end surface of the hollow body (114) is provided with an intermediate joint (147); the docking pipeline assembly further includes:
a third branch pipe (121) having one end connected to the water accommodating tank (115);
A spray driving member (122) disposed in the main frame (113), the spray driving member (122) being drivingly connected to the other end of the third branch pipe (121);
An upper spray pipe (123), wherein one end of the upper spray pipe (123) is connected to the middle joint (147), the other end of the upper spray pipe (123) extends to the top end of the cavity (114), and a spray piece is arranged on the upper spray pipe (123);
The spray driving piece (122) can drive the water in the third branch pipeline (121) to be pumped into the middle joint (147) so as to flow into the upper spray pipe (123), so that the spray piece sprays and cleans the pipe cavity instrument positioned in the uppermost layer of the material tray.
5. The cabin structure according to claim 4, wherein a spray butt joint (124) is fixedly arranged on an inner bottom end face of the hollow cavity (114), the spray butt joint (124) is arranged corresponding to the middle joint (147), a top end face of the spray butt joint (124) is horizontally arranged, and the spray butt joint (124) is used for being in butt joint with the first interface.
6. The cabin structure according to claim 5, wherein a lifting joint (125) is installed in the spraying butt joint (124), the spraying butt joint (124) is externally connected with a spraying nut (126) in a threaded manner, the bottom end of the lifting joint (125) is located in the spraying nut (126), the top end of the lifting joint (125) extends out of the spraying nut (126), and the lifting joint (125) can lift along a Z-axis in the spraying nut (126) under the action of water pressure in the spraying butt joint (124) so that the lifting joint (125) is butted to the first interface.
7. The tank structure of claim 5, wherein the docking conduit assembly further comprises:
The mounting block (142) is arranged on the inner bottom end face of the cavity body (114), the top end face of the mounting block (142) is flush with the top end face of the spraying butt joint (124), and a plurality of butt joint pipes (137) are inserted in the mounting block (142) in a sliding manner along the Z axis;
The mounting frame comprises a top plate (129), a bottom plate (128) and a connecting column (136) connected between the top plate (129) and the bottom plate (128), and the bottom end of the butt joint pipe (137) penetrates out of the cavity body (114) and is connected to the top plate (129);
A fourth pipe (131) having one end connected to the water receiving tank (115);
A diversion seat (133), the other end of the fourth branch pipeline (131) is connected to the diversion seat (133);
-a perfusion pump (134), the shunt seats (133) being connected to a plurality of the perfusion pumps (134), respectively;
The gas-water diversion block (135), be equipped with a plurality of on bottom plate (128) gas-water diversion block (135), each the export of perfusion pump (134) is connected to each respectively gas-water diversion block (135) water inlet, the delivery port of gas-water diversion block (135) can with butt joint pipe (137).
8. The tank structure of claim 7, wherein the docking conduit assembly further comprises:
The fixed end of the push rod motor (138) is arranged on the main frame (113), the pushing end of the push rod motor (138) penetrates through the bottom plate (128) and is in driving connection with the top plate (129), and the push rod motor (138) is used for driving the top plate (129) to move upwards along the Z axis so that the butt joint pipe (137) moves upwards to butt joint the second interface along the Z axis in the mounting block (142).
9. The tank structure of claim 8, wherein the docking conduit assembly further comprises:
The air receiving pipe (139) is also inserted in the mounting block (142) in a sliding manner along the Z axis, and the bottom end of the air receiving pipe (139) is connected to the top plate (129);
The electromagnetic valve (141) is connected to the air source, the electromagnetic valve (141) is connected to the air inlet of the air-water diversion block (135), the air outlet of the air-water diversion block (135) is in butt joint with the air receiving pipe (139), and when the push rod motor (138) drives the top plate (129) and the air receiving pipe (139) to move upwards along the Z axis, the air receiving pipe (139) can be in butt joint with the third interface.
10. Cabin structure according to claim 9, characterized in that the mounting block (142) is internally provided with a through hole (143), the butt joint pipe (137) and the gas receiving pipe (139) are respectively inserted into the through holes (143), the lower end part of the through hole (143) is provided with a linear bearing (145), the upper end part of the through hole (143) is provided with a sealing ring (144), and the butt joint pipe (137) and the gas receiving pipe (139) sequentially pass through the linear bearing (145) and the sealing ring (144).
Publications (1)
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CN221983402U true CN221983402U (en) | 2024-11-12 |
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